Abstract
The lacustrine-to-palustrine Pastos Grandes Laguna (Bolivia) is located in a volcanic caldera fed by active hot springs, with a carbonate crust extending over 40 km2. An integrated approach based on geology and hydrochemistry was used to characterize La Salsa, one of its hydrothermal systems, composed of a flat mound with a hydrothermal discharge. The mound is composed of carbonate–diatom aggregates, forming muds that accumulate and undergo slight swelling. The discharge area along the hydrothermal pathway exhibits several facies and microfabrics, with considerable biological activity and microbialite development. Both the downstream evolution of carbonate and silica content in sediments and the distribution of microbialites can be linked to changes in biotic-abiotic processes occurring along the pathway. The spatial distribution of microbialites and their morphologies are related to hydrodynamic conditions, the nature of the substrate on which they grow and, to a lesser extent, to the accommodation space available. The evolution of the physicochemical properties of the water and biological activity mainly impact mineral precipitation but also affect microbialite morphologies and microstructures. This atypical Si- and Ca-rich hydrothermal system therefore provides insights into the diversity of environmental, chemical, and biotic factors controlling mineralization, which also responds to independent thermodynamic controls.
Highlights
Hot springs are commonly associated with both active and dormant volcanic regions, as magmatic fields continuously release heat in different tectonic settings, including subduction [1,2,3,4] rifting [5,6], and intraplate volcanism [7,8]
It is divided into two main spatial units, with seven facies, based on hydrology and sediment production: (1) La Salsa flat mound, with an ephemeral flow all around the central pool and (2) La Salsa main hydrothermal discharge, a perennial flow from the central pool along the eastern side of the flat mound
Grainstone composition is related to position on the carbonate platform, and laminated grainstones differ from massive grainstones only by their internal structure
Summary
Hot springs are commonly associated with both active and dormant volcanic regions, as magmatic fields continuously release heat in different tectonic settings, including subduction [1,2,3,4] rifting [5,6], and intraplate volcanism [7,8] They are fed with water enriched in ions acquired from the surrounding bedrock during fluid migration to the surface. In volcanic settings, whether Modern [6,18,19,20,21] or in the fossil record [22], hydrothermal travertines and mixed carbonate–silicate deposits may be observed Such deposits may provide insights into the formation of South Atlantic Pre-Salt deposits [23,24]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
